SU1650990A1 - Mechanism for transformation of motion - Google Patents

Abstract

The invention relates to mechanisms for converting a reciprocating movement into a rotary motion and can be used in mechanisms of reciprocating machines, compressors, pumps, etc. The aim of the invention is to increase the load capacity and reliability by otherwise performing the protrusion rod in the mechanism. The protrusion 7 is mounted on the rod 5 with the eccentricity d2 equal to the distance di between the axes of the rod 5 and the cylinder 1. and is made in the form of a ball joint placed in the hole 4 with a gap. The central angle forms a spherical ball with a larger double angle between the axis of the hole 4 and the cylinder 1. With the reciprocating movement of the rod 5, the movement is converted into rotational movement of the cylinder 1 and the rod 5. 1 Cp f-ly 4 Il.

Description

The invention relates to mechanisms for converting reciprocating motion into rotational and can be used in the mechanisms of piston machines, compressors, pumps, etc.

The purpose of the invention is to increase the load capacity and reliability by another implementation of the rod with a protrusion in the mechanism.

Figure 1 shows the mechanism in the extreme left position of the rod; Fig. 2 shows the mechanism in which the rod is in the middle position; Fig. 3 shows the mechanism in which the rod is in the extreme right position; Fig. 4 shows an embodiment of the mechanism.

The mechanism consists of a body in the form of a cylinder 1 mounted in bearings 2 and having a gear rim 3. In cylinder 1, a through hole 4 is made at an angle a equal to 7-45 ° to the axis of the cylinder and passing through its center of symmetry. In the hole 4 there is a round rod 5 parallel to the axis of the cylinder 1 at a distance ai in the bearings 6. On the rod 5, the protrusion 7 is eccentric to its axis in the form of a ball valve placed in the hole 4 with a gap. The central angle, which forms a spherical ball on c, is located symmetrically to the plane perpendicular to the axis of the rod 5. The magnitude of the central angle is more than twice the angle a. The eccentricity of the protrusion 7 relative to the axis of the rod 5 vg is equal in magnitude to ab. In the embodiment shown in FIG. 4 in the bore 4, an annular piston 8 is installed, forming a spherical hinge with the protrusion 7.

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with

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oh che oh

about

The mechanism works as follows.

When the rod 5 is in the extreme position, the axes of the cylinder 1, the rod 5 and the protrusion 7 are in the same plane. When stock 5

occupies the middle position, the axis of the protrusion 7 and the housing 1 soapadeyut. During the reciprocating movement of the rod 5, the movement is converted by the interaction of the protrusion 7 and the orifice 4 into the rotational movement of the cylinder 1 and the rod 5 in one direction, but the angular speed of the rod 5 is twice as large, and the direction of rotation depends on the position of the protrusion 7 relative to the center of symmetry of the cylinder 1 Half stroke 5

b ai ctg a

At the extreme and middle position of the stem 5, the interaction of the protrusion 7 and the opening 4 passes through the axes of the cylinder 1 and the stem 5 and is in the same plane with it, which corresponds to the dead points in the operation of the mechanism, which are overcome by inertia.

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five

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Claims (2)

1. A motion conversion mechanism comprising a body in the form of a cylinder with a hole, the axis of which is located at an acute angle ak of the cylinder axis, and a stem with a protrusion placed in the hole parallel to the axis of the cylinder, in order to increase the load capacity and reliability of the mechanism the projection is made in the form of a spherical ball, the central angle of which is more than twice the angle a and is located with an eccentricity equal to the distance between the axes of the rod and the cylinder. 2. The mechanism according to claim 1, characterized in that it is provided with an annular piston installed in the housing bore, which clasps the protrusion and forms with it a spherical hinge. 1 FIG. 2 Fig.Z